The present invention relates to a threaded joining assembly for joining a first member and a second member and enabling compensation of tolerances of a spacing between the second member and other parts.
German patent application DE 101 47 141 A1 discloses a sealed, adjustable, and self-locking threaded joining assembly comprising a nut and a bolt. In this threaded joining assembly, the nut, which is e.g. a blind rivet nut and is fixed to the first member, includes a bore comprising a threaded bore portion and a cylindrical smooth bore portion. The bolt, which may be releasably connected to the second member via a coupling part, has an intermediate portion provided with a plurality of circumferentially extending sealing ribs. The sealing ribs are dimensioned with respect to the cylindrical smooth bore portion of the nut such that they are slidingly urged against the smooth bore portion of the bore when the bolt is adjusted relative to the nut. This results in a threaded joining assembly which is fluid-tight and self-locking even though it is adjustable.
Such a threaded joining assembly may be used to fasten a vehicle backlight at a vehicle body sheet. Generally there is a gap between the vehicle backlight and other vehicle body parts, which gap should be minimized in particular for esthetical reasons. The threaded joining assembly being adjustable allows to change the spacing between the two members so as to minimize the gap.
An object of the present invention is to improve this threaded joining assembly. In particular the threaded joining assembly is to be designed such that the second member may be fixedly connected to the nut and therefore to the second member.
According to the present invention the threaded joining assembly is characterized by a fastening portion of said bolt which comprises a flange engaging said second member and second threads threadingly engaging a locknut such that the position of said second member with respect to said first member may be fine-adjusted by said bolt and may be fixed by clamping said second member between said flange of said bolt and said lock nut.
The invention enables the second member when its position has been fine-adjusted relative to the first member to be threadingly connected to the nut and thereby to be fixedly connected to the first member. If the second member is e.g. a holding section provided at a vehicle backlight, its spacing to the first member (vehicle body sheet) may be changed by adjusting the threaded joining assembly in order to compensate for manufacturing and assembling tolerances of the spacing.
Preferably the sealing portion of the bolt is not formed as an intermediate portion but provided on an axial end of the bolt. As a result the sealing portion of the bolt may be readily provided with more than three sealing ribs in order to improve the self-locking and sealing properties of the threaded joining assembly.
A preferred embodiment of the present invention will be explained in more detail with reference to the accompanying drawings wherein:
The threaded joining assembly shown in
The threaded joining assembly consists of a nut 10, a bolt 12, and a locknut 14.
The nut 10 is a blind rivet nut. As shown in particular in
The bolt 12 shown in
The threaded portion 40 of the bolt 12 is followed by a smooth stem portion 46 which is followed by a sealing portion 48. The sealing portion 48 is provided at the axial end of the bolt 12 opposite to the head portion 34, and is provided with a plurality of circumferential sealing ribs 50. In the embodiment as shown there are provided eight sealing ribs 50; it should be understood, however, that more or less sealing ribs may be provided depending on the specific application. The sealing ribs 50 cooperate with the smooth bore portion 28 of the nut 20 for sealing the threading joining assembly as will be explained in more detail below.
The locknut 14 shown in
The bolt 12 is preferably made of an impact resistant plastic material such as a fiber reinforced polyamide, in particular a glass fiber reinforced polyamide. The nut 10 which is formed as a blind rivet nut is preferably made of a metallic material or a heard plastic material. The lock nut 14 is preferably made also of a plastic material which may be identical to the plastic material of the bolt 12.
Assembly and operation of the threaded joining assembly will now be described.
To assemble the threaded joining assembly, initially the nut 10 is inserted into a respective hole of the member 2 from above. The hole of the member 2 is matingly shaped with respect to the non-circular periphery (polygonal periphery) of the nut 10 for preventing relative rotation of the nut 10 (
The bolt 12 is now inserted into the bore 20 of the nut 10, and the threads 42 of the bolt 12 will be threaded into the threads 25 of the nut 10 by a tool (not shown) engaging the drive formation 38. As a result the sealing ribs 50 enter into the cylindrical smooth bore portion 28 of the nut 10. The sealing ribs 50 are overdimensioned with respect to the diameter of the bore portion 28 such that they are urged against the wall of the bore portion 28 by a certain pressure so as to be slightly deformed, i.e. deflected. The dimensions of the sealing ribs 30 are chosen such that despite of the unavoidable manufacturing tolerances a sufficient pressure is generated in order to provide on the one hand for proper sealing of the threaded joining assembly and on the other hand for a certain self-locking effect between the bolt and the nut.
Threading the bolt 12 into the nut 10 will move the bolt 12 into a predetermined axial position relative to the member 2 (body sheet). The member 4 (holding section of the backlight) will now be moved over the head portion 34 of the bolt 12 so as to be brought into engagement with the flange 32 of the bolt 12. Initially the member 4 is supported so as to be axially displaceable. This allows to fine-adjust the position of the member 4 in contact with the flange 32 by adjusting the bolt 12 so as to minimize a gap (not shown) between the backlight and other vehicle body parts.
When the axial position of the member 4 has been fine-adjusted, the locknut 14 is threadingly engaged with the bolt 12 via threads 56 and 36 whereby the member 4 is clamped between the flange 54 of the locknut 14 and the flange 32 of the bolt 12. The annular projection 58 extending axially from the flange 54 of the locknut 14 engages into the hole of the member 4. The member 4 being in its fine-adjusted axial position is now fixedly connected to the nut 10 and fixedly connected to the member 2 via the nut 10. As a result manufacturing and assembling tolerances between the member 4 (holding section of the backlight) and the other vehicle body portions (not shown) have now been compensated for due to fine-adjustment of bolt 12.
Number | Date | Country | Kind |
---|---|---|---|
20 2004 019 153 U | Dec 2004 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
4690365 | Miller et al. | Sep 1987 | A |
4984946 | Phillips, II | Jan 1991 | A |
5333978 | Rives | Aug 1994 | A |
5492388 | Kawasaki | Feb 1996 | A |
6062263 | Donovan et al. | May 2000 | A |
6131346 | Kordes | Oct 2000 | A |
6763746 | Bayer et al. | Jul 2004 | B2 |
6776566 | Kobusch et al. | Aug 2004 | B2 |
6817817 | Dembowsky et al. | Nov 2004 | B2 |
Number | Date | Country |
---|---|---|
19542109 | May 1996 | DE |
19612479 | Dec 1997 | DE |
19818791 | Oct 1999 | DE |
202 04 994 U 1 | Aug 2002 | DE |
202004012733 | Nov 2004 | DE |
Number | Date | Country | |
---|---|---|---|
20060127169 A1 | Jun 2006 | US |